Relevant bibliographies by topics / Corrosion protection

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Corrosion protection'

Author: Grafiati
Published: 4 June 2021
Last updated: 25 July 2025

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Journal articles on the topic "Corrosion protection"

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Monika, Monika, and Jarosław Frydrych. "Olej ochronny o niskiej lepkości do czasowej ochrony elementów metalowych przed korozją." Nafta-Gaz 76, no. 11 (2020): 864–69. http://dx.doi.org/10.18668/ng.2020.11.12.

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Corrosion of metals is the gradual destruction of metal under the impact of environmental factors. Chemical or electrochemical processes on the surface of the metal cause irreversible changes in the structure of the metal. To prevent this, during storage or transport, the surfaces of metal elements must be protected against environmental factors, which include: high air humidity, acid rain and variable temperature. These factors accelerate the corrosion process, which cannot be eliminated, but can be reduced by protecting metal elements with e.g. protective oils. Some metals have the ability t
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Asmara, Yuli Panca, Tedi Kurniawan, Agus Geter Edy Sutjipto, and Jamiluddin Jafar. "Application of Plants Extracts as Green Corrosion Inhibitors for Steel in Concrete - A review." Indonesian Journal of Science and Technology 3, no. 2 (2018): 158. http://dx.doi.org/10.17509/ijost.v3i2.12760.

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High requirements in protection of steel reinforcing bar (steel rebar) from corrosion are necessary since there are multi interaction of corrosive chemicals which cause early damage of concrete buildings. Corrosion of steel in concrete can destroy the concretes and reduce concrete strength. To protect rebar from corrosion, application of corrosion inhibitor is believed to have higher performance compared to other protection systems. To date, organic inhibitors have promising methods in steel rebar protection as they are environment-friendly, compatible with concrete, cost effective and applica
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Martyniuk, R. T. "ANTI-CORROSION PROTECTION OF PIPELINES." PRECARPATHIAN BULLETIN OF THE SHEVCHENKO SCIENTIFIC SOCIETY Number, no. 18(68) (December 1, 2023): 157–65. http://dx.doi.org/10.31471/2304-7399-2023-18(68)-157-165.

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Currently, in our country, the issue of protecting metals from corrosion has achieved high results, so there is a big gap between the achievements of scientific research in this direction and their use in industry. It is necessary to develop and implement highly effective methods of increasing the strength, corrosion resistance, heat and cold resistance of metals and alloys. Popularization, dissemination and implementation of effective methods of protection against corrosion and corrosive-mechanical destruction of machines, devices, equipment and metal structures are of great importance.
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Volkland, H. P., H. Harms, O. Wanner, and A. J. B. Zehnder. "Corrosion protection by anaerobiosis." Water Science and Technology 44, no. 8 (2001): 103–6. http://dx.doi.org/10.2166/wst.2001.0475.

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Biofilm-forming bacteria can protect mild (unalloyed) steel from corrosion. Mild steel coupons incubated with Rhodoccocus sp. strain C125 and Pseudomonas putida mt2 in an aerobic phosphate-buffered medium containing benzoate as carbon and energy source, underwent a surface reaction leading to the formation of a corrosion-inhibiting vivianite layer [Fe3(PO4)2]. Electrochemical potential (E) measurements allowed us to follow the buildup of the vivianite cover. The presence of sufficient metabolically active bacteria at the steel surface resulted in an E decrease to -510 mV, the potential of free
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Vögtlin, C. "Corrosion Protection." Key Engineering Materials 20-28 (January 1991): 2871–74. http://dx.doi.org/10.4028/www.scientific.net/kem.20-28.2871.

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Vögtlin, C. "Corrosion Protection." Key Engineering Materials 20-28 (January 1991): 2875–79. http://dx.doi.org/10.4028/www.scientific.net/kem.20-28.2875.

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Rawia, Mansour, and Mohamed Elshafei Ali. "Protection of Metal Surfaces from Microbial Colonization." Annual Research & Review in Biology 14, no. 2 (2017): 1–8. https://doi.org/10.9734/ARRB/2017/34452.

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This review discusses some aspects relating to the microbial interaction to metal surfaces. Most of the previous studies assumed that this process results in increased corrosion rates (MIC), however more recently it has been reported that many bacterial species can reduce corrosion rates of different metals and alloys in many corrosive environments by changing drastically the electrochemical conditions at the metal-solution interface. These changes ranged from acceleration of corrosion to corrosion inhibition. Microorganisms can contribute to corrosion inhibition by different means such as neu
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Saloum, S., B. Alkhaled, W. Alsadat, M. Kakhia, and S. A. Shaker. "Plasma polymerized hexamethyldisiloxane thin films for corrosion protection." Modern Physics Letters B 32, no. 03 (2018): 1850036. http://dx.doi.org/10.1142/s0217984918500367.

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This study focused on the corrosion protection performance of plasma polymerized HMDSO thin films in two different corrosive medias, 0.3M NaCl and 0.3M H2SO4. The pp-HMDSO thin films were deposited on steel substrates for electrochemical tests using the potentiodynamic polarization technique, they were deposited also on aluminum and silicon substrates to investigate their resistance to corrosion, through the analysis of the degradation of microhardness and morphology, respectively, after immersion of the substrates for one week in the corrosive media. The results showed promising corrosion pro
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Farag, Ahmed A. "Applications of nanomaterials in corrosion protection coatings and inhibitors." Corrosion Reviews 38, no. 1 (2020): 67–86. http://dx.doi.org/10.1515/corrrev-2019-0011.

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AbstractVarious methodologies are practically used to control corrosion. Coatings are the most widely used to protect metals against corrosion. However, due to the weak resistance of polymer coating against the penetration of corrosive solution to the metal/coating interface, the long-term corrosion resistance of the polymer coating is reduced gradually. Recently, nanoparticles have been added to coatings to improve their chemical, mechanical and optical properties. Nanocoatings either have constituents in the nanoscale or are made out of layers that are under 100 nm. Nanocoatings are used eff
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BODEN, P. J. "Corrosion and Corrosion Protection Handbook." Surface Engineering 5, no. 4 (1989): 279–80. http://dx.doi.org/10.1179/sur.1989.5.4.279.

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Dissertations / Theses on the topic "Corrosion protection"

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Alhamalawi, Mazen. "Offshore Wind Power Foundations' Corrosion Protection Strategy : Anlysis remotely controlled corrosion protection system and comparison to traditional corrosion protection of offshore wind foundation." Thesis, Linnéuniversitetet, Sjöfartshögskolan (SJÖ), 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:lnu:diva-103460.

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När en metall är omgärdad av en elektrolyt, så som havsvatten, kommer det att byggas upp en naturlig potential. Det sker en elektronvandring mellan materialet och havsvattnet och ju större potentialskillnad desto större sannolikhet att metallen kommer korrodera. Korrosion är en stor och viktig fråga för offshorekonstruktioner och byggnader.  För att uppnå en konstruktions designade livslängd kan åtgärder vidtas med hänsyn till kapitalkostnader och drift- och underhållskostnader.  Denna studie syftar till att jämföra ekonomiska för- och nackdelar hos de två korrosionsskyddssystemen Galvanic Ano
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Sababi, Majid. "Nanocomposite films for corrosion protection." Doctoral thesis, KTH, Yt- och korrosionsvetenskap, 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-132240.

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This thesis describes technical and scientific aspects of new types of composite films/coatings for corrosion protection of carbon steel, composite films with nanometer thickness consisting of mussel adhesive protein (Mefp‐1) and ceria nanoparticles, and polymeric composite coatings with micrometre thickness consisting of conducting polymer and ceria nanoparticles in a UV‐curing polyester acrylate (PEA) resin. The influence of microstructure on corrosion behaviour was studied for a Fe‐Cr‐V‐N alloy containing micro‐sized nitrides with different chemical composition spread in martensitic alloy m
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Roberts, Erica W. "The corrosion protection of aluminium." Thesis, Bangor University, 2008. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.520064.

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Balaskas, Andronikos. "Corrosion protection by encapsulated inhibitors." Thesis, University of Manchester, 2016. https://www.research.manchester.ac.uk/portal/en/theses/corrosion-protection-by-encapsulated-inhibitors(6295df0b-7ae9-4e8f-957b-2f9468740cb8).html.

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This work, within EPSRC LATEST2 (Light Alloys Towards Environmentally Sustainable Transport 2) Programme Grant, is focused on the development of environmentally-friendly corrosion inhibitors, nanocontainers loaded with inhibitors and epoxy coatings for corrosion protection of the aerospace alloy AA 2024-T3. More specifically, the electrochemical techniques of image assisted electrochemical noise, electrochemical impedance spectroscopy, split-cell technique and potentiodynamic polarization were used for the qualitative and quantitative evaluation and characterization of environmentally-friendly
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Diaz, Tang Isabel. "Corrosion: inexorability versus durability." Revista de Química, 2016. http://repositorio.pucp.edu.pe/index/handle/123456789/100474.

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En general, un material tenderá a corroerse espontáneamente en un determinado medio si los productos de corrosión son más estables que el material de partida, o si bajo las condiciones de exposición la corrosión resulta favorecida. En la práctica, lo que se busca es extender la vida útil de estructuras, equipos o dispositivos, es decir, mejorar su durabilidad.<br>In general, a material will tend to corrode in a specific environment when the corrosion products are more stable than the starting material or, when exposed to certain conditions, a corrosion process results favored. In general pract
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Verdier, Stéphane. "Corrosion et protection anti-corrosion de l'alliage de magnésium AM60." Grenoble INPG, 2003. http://www.theses.fr/2003INPG0030.

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Nous avons étudié la corrosion de l'alliage de magnésium AM60 d'un point de vue microstructural et à l'aide de méthodes électrochimiques, dans une solution saturée de magnésie, et en milieu chlorure de sodium. Pour limiter la corrosion de l'alliage AM60 ou pour améliorer l'adhérence des revêtements rganiques, nous avons étudié deux traitements de surface. Le premier, à base de fluorure de irconium ou de titane entraîne la formation d'un film par réaction acide-base à l'interface métal-électrolyte. La structure et la composition du film obtenu ont été analysées par Microscopie Electronique à Ba
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Keddie, Alastair John. "Computational modelling of corrosion protection systems." Thesis, Imperial College London, 2006. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.439541.

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Bi, Huichao. "Corrosion protection by paint : cathodic disbonding." Thesis, University of Oxford, 2011. http://ora.ox.ac.uk/objects/uuid:b92b86b0-abb0-4945-8f07-f394b9e9eb5b.

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This work investigated cathodic disbonding of an unpigmented phenalkamine-cured epoxy coating on mild steel, EC, exposed to 3.5 wt.% NaCl solution. Scanning Acoustic Microscopy (SAM), Scanning Kelvin Probe (SKP), Electrochemical Impedance Spectroscopy (EIS) and optical microscopy have been combined to conduct this study. Several factors affecting the cathodic disbonding process: Film thickness, Cation mobility, Electrolyte concentration, Temperature, Paint composition, Polarisation and Open circuit potential, have been investigated. SAM results show that the disbonding of EC with a linear scri
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Yasakau, Kiryl. "Active corrosion protection of AA2024 by sol-gel coatings with corrosion inhibitors." Doctoral thesis, Universidade de Aveiro, 2011. http://hdl.handle.net/10773/3724.

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Doutoramento em Ciência e Engenharia de Materiais<br>A indústria aeronáutica utiliza ligas de alumínio de alta resistência para o fabrico dos elementos estruturais dos aviões. As ligas usadas possuem excelentes propriedades mecânicas mas apresentam simultaneamente uma grande tendência para a corrosão. Por esta razão essas ligas necessitam de protecção anticorrosiva eficaz para poderem ser utilizadas com segurança. Até à data, os sistemas anticorrosivos mais eficazes para ligas de alumínio contêm crómio hexavalente na sua composição, sejam pré-tratamentos, camadas de conversão ou pigment
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Bouzidi, Djamel. "Corrosion et protection cathodique des conduites souterraines." Mémoire, École de technologie supérieure, 2011. http://espace.etsmtl.ca/877/1/BOUZIDI_Djamel.pdf.

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De nos jours, la détérioration des conduites souterraines par le phénomène de corrosion est devenue une préoccupation croissante des secteurs industriels et environnementaux dans les pays développés. En effet, la croissance annuelle du nombre de bris surgissant dans les réseaux d’aqueduc et les budgets énormes de réhabilitation qui en résultent sont à l’origine de la recherche de techniques innovatrices en termes d’évaluation et de prévention contre l’avarie de la corrosion. Les conduites utilisées dans le système de distribution d'eau sont principalement fabriquées en fonte. La dégrada
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Books on the topic "Corrosion protection"

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Munger, Charles G. Corrosion protection by protective coatings. 2nd ed. National Association of Corrosion Engineers, 1999.

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Bardal, Einar, ed. Corrosion and Protection. Springer London, 2004. http://dx.doi.org/10.1007/b97510.

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Wicks, Zeno W. Corrosion protection by coatings. Federation of Societies for Coatings Technology, 1987.

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Sastri, V. S., Edward Ghali, and Mimoun Elboujdaini. Corrosion Prevention and Protection. John Wiley & Sons, Ltd, 2007. http://dx.doi.org/10.1002/9780470024546.

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Virmani, Yash Paul. Corrosion protection: Concrete bridges. Federal Highway Administration, 1998.

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A, Bayliss Derek, ed. Corrosion protection of steel structures. Elsevier Applied Science Publishers, 1985.

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European Convention for Constructional Steelwork. Advisory Committee 1 - Multi-Storey Steel Buildings. Protection against corrosion inside buildings. ECCS, 1985.

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précontrainte, Fédérationinternationale de la, and Structural Engineers Trading Organisation, eds. Corrosion protection of prestressing steels. SETO, 1996.

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Schütze, Michael, Bernd Isecke, and Roman Bender. Corrosion protection against carbon dioxide. DECHEMA, 2011.

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British Steel Corporation. General Steels Group., ed. Corrosion protection: The prevention of corrosion on structural steels. British Steel Corporation, General Steels Group, 1985.

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Book chapters on the topic "Corrosion protection"

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Chandrasekhar, Prasanna. "Corrosion Protection." In Conducting Polymers, Fundamentals and Applications. Springer US, 1999. http://dx.doi.org/10.1007/978-1-4615-5245-1_22.

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Mattsson, Einar. "Corrosion protection." In Basic Corrosion Technology for Scientists and Engineers, 2nd ed. CRC Press, 2023. http://dx.doi.org/10.1201/9781003421443-6.

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Maaß, Peter. "Corrosion and Corrosion Protection." In Handbook of Hot-Dip Galvanization. Wiley-VCH Verlag GmbH & Co. KGaA, 2011. http://dx.doi.org/10.1002/9783527636884.ch1.

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Mothersille, Devon, Donald A. Bruce, and Stuart Littlejohn. "Corrosion and corrosion protection." In Grouted Soil and Rock Anchors. CRC Press, 2025. https://doi.org/10.1201/9781003127352-4.

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Bradford, Samuel A. "Cathodic and Anodic Protection." In Corrosion Control. Springer US, 1993. http://dx.doi.org/10.1007/978-1-4684-8845-6_12.

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Okyere, Mavis Sika. "External Corrosion Protection." In Corrosion Protection for the Oil and Gas Industry. CRC Press, 2019. http://dx.doi.org/10.1201/9780429056451-3.

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Okyere, Mavis Sika. "Internal Corrosion Protection." In Corrosion Protection for the Oil and Gas Industry. CRC Press, 2019. http://dx.doi.org/10.1201/9780429056451-4.

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Pötschke, Jürgen. "Electrochemical Corrosion Protection." In Refractory Fundamentals in Metallurgical Practice. Springer Nature Switzerland, 2024. https://doi.org/10.1007/978-3-031-63709-4_9.

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Okyere, Mavis Sika. "Corrosion." In Corrosion Protection for the Oil and Gas Industry. CRC Press, 2019. http://dx.doi.org/10.1201/9780429056451-2.

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WALKER, R. "Anodic Protection." In Corrosion. Elsevier, 1994. http://dx.doi.org/10.1016/b978-0-08-052351-4.50088-1.

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Conference papers on the topic "Corrosion protection"

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Evans, Sheldon. "Deepwater Platform Protection Using Coatings Combined with Cathodic Protection." In CORROSION 1990. NACE International, 1990. https://doi.org/10.5006/c1990-90372.

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Abstract The subsea protection design, comprising a combination of cathodic protection and coatings, for two platforms recently installed in the Gulf of Mexico at a water depth of 620 feet, is described. The results of surveys undertaken after installation reveal potentials considerably more protective than the minimum protective potential. In addition to eliminating the retrofit risk, significant cost and weight savings were achieved. The protection system life will exceed the design life of 20 years.
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Burton, S. A., and M. Bonner. "Elastomeric Corrosion Protection Performance and Compatibility with Cathodic Protection Systems." In CORROSION 1985. NACE International, 1985. https://doi.org/10.5006/c1985-85286.

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Abstract The use of elastomers for the corrosion protection of steelwork is a subject of steadily growing interest, due to the realisation that severe environmental conditions on offshore structures require a coating capable of longevity without repetitive maintenance. From the first tentative steps 20 years ago in the Gulf of Mexico to the current application of high performance elastomers for complete riser protection systems in the North Sea, the evolution of the elastomeric coating has moved towards its recognition as a true engineering material. Existing corrosion protection systems often
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Wensley, Angela. "Corrosion Protection of Kraft Digesters." In CORROSION 2001. NACE International, 2001. https://doi.org/10.5006/c2001-01423.

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Abstract This paper discusses novel applications of anodic protection, weld overlay, and thermal spray coating for corrosion protection of carbon steel batch and continuous digesters. Anodic protection now offers the possibility of protecting behind screens and blank plates. Stainless steel weld overlay can be applied behind headers for protection against erosion-corrosion. Thermal spray coatings can be applied over circumferential weld seams for protection against stress corrosion cracking. Also discussed are the advantages and disadvantages of each protection mode as well as their compatibil
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Mollan, R., and T. R. Andersen. "Design of Cathodic Protection Systems." In CORROSION 1986. NACE International, 1986. https://doi.org/10.5006/c1986-86286.

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Abstract ABSTRACT The revised guidelines recently issued by Veritas for design of cathodic protection systems for offshore installations are presented. Important aspects of cathodic protection design are reviewed such as calculation procedures, protective potentials, current density requirements, electrochemical properties of sacrificial anodes and monitoring. Emphasis has been given to recent developments.
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AI-Sulaiman, Saleh, Hasan Sabri, Abdul Aziz Faraj, and Eugene D’Souza. "Enhancement of Cathodic Protection System for Internal Surface of Process Vessels." In CORROSION 2013. NACE International, 2013. https://doi.org/10.5006/c2013-02764.

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Abstract Process vessels are very critical equipment’s in Oil and Gas industries. Protecting internal submerged surfaces of such vessels from the corrosion is a challenging task for corrosion engineers, especially vessels which are involved with dissimilar and bare internal metallic structures, high operating temperatures, fluid velocities and low electrolyte resistivity. The protective current demand of vessel internal cathodic protection (CP) system have been reduced substantially by coating all internal structures irrespective of materials of construction and isolating the dissimilar intern
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Lyublinskii, E. Ya, and A. I. Sorokin. "Anomalies of Aluminum Cathodic Protection." In CORROSION 1995. NACE International, 1995. https://doi.org/10.5006/c1995-95318.

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Abstract The cathodic protection in combination with the polymer coatings ensures a safe corrosion protection of aluminum vessel hulls in a sea water flow rate up to 30m/s. At higher rates (up to 50m/s) the corrosion is enhanced and is more dangerous compared to the case when there is no traditional cathodic protection. In this case, the rate of corrosion may increase 10 - 100 times and may lead to catastrophic failures. The experiments indicate that the electrochemical protection parameters (protective potential and density of the protection current) accepted for some time and preserved with
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Codolar, Santiago Arias, and Jose Luna. "Novel Zinc Primers with Enhanced Protection and Mechanical Properties." In CORROSION 2014. NACE International, 2014. https://doi.org/10.5006/c2014-3979.

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Abstract Zinc rich primers are extensively used for corrosion protection in the marine and protective industry. During the 60’s/70’s zinc rich epoxy (organic) primers were dominating the market. Later zinc ethyl silicate (inorganic) primers took over this role but nowadays it looks as if zinc epoxy primers have made a comeback. Some of the advantages of zinc epoxies compared to zinc silicates are the less demanding curing conditions (epoxies will cure at low humidity), they are easier to overcoat and they are less demanding to substrate preparation prior to application. The latest trend from t
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Weinell, Claus E., and Soeren Nyborg Rasmussen. "Advancement in Zinc Rich Epoxy Primers for Corrosion Protection." In CORROSION 2007. NACE International, 2007. https://doi.org/10.5006/c2007-07007.

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Abstract The protecting mechanism of zinc rich coatings is mainly based on cathodic protection provided by the zinc dust in the paint. Cathode protection by zinc is finite; however, since after the zinc has been corroding for some time the electrical conductivity diminishes and at the same time zinc corrosion products build up on the zinc dust pigments and polarizes the zinc. The zinc primer still protects the steel substrate but the galvanic activity is taken over by post-cathodic protection which is based on barrier and inhibitive protection provided by the zinc corrosion products, also name
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Benedict, Risque L. "Corrosion Protection of Concrete Cylinder Pipe." In CORROSION 1989. NACE International, 1989. https://doi.org/10.5006/c1989-89368.

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Concrete cylinder pipe referred to in this paper consists of a thin steel cylinder which acts primarily as a water proofing membrane surrounded by concrete. Steel reinforcements consisting of either mild steel rods (AWWA C-303) or prestressed wire (AWWA C-301) are wrapped over the core and embedded in a mortar coating. Little has been published on corrosion protection measures for concrete cylinder pipe. Since concrete cylinder pipe has experienced relatively few corrosion problems, there has been very little history in its protection. Because of this sparsity of data it is not surprising that
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Stevens, Ken. "Corrosion Protection for Nuts and Bolts." In CORROSION 2000. NACE International, 2000. https://doi.org/10.5006/c2000-00626.

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Abstract This PROTECTOR is a patented, threaded protector which seals nuts and exposed threads in pressurized grease. A built-in elastic membrane confirms a pressurized seal and automatically compensates for temperatures and pressure changes. This SYSTEM is state-of-the-art in corrosion protection for nuts and bolts.
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Reports on the topic "Corrosion protection"

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Smith, Charles, Charles Smith, Tom Siewert, Brajendra Mishra, David Olson, and Angelique Lassiegne. Coatings for corrosion protection. National Institute of Standards and Technology, 2005. http://dx.doi.org/10.6028/nist.sp.1035.

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Tortorelli, P. F. Corrosion protection of ultrahigh temperature intermetallic alloys. Office of Scientific and Technical Information (OSTI), 1996. http://dx.doi.org/10.2172/450766.

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Enos, David, and Kimberly Martinez. Durability of Corrosion Protection Coatings for Aluminum. Office of Scientific and Technical Information (OSTI), 2017. http://dx.doi.org/10.2172/1505403.

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Parkhill, Robert M., Nicholas A. Kotov, and Edward T. Knobbe. Investigation of Integrated Coating System for Corrosion Protection. Defense Technical Information Center, 2002. http://dx.doi.org/10.21236/ada409358.

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Turner, J. A., H. Wang, and M. P. Brady. Corrosion Protection of Metallic Bipolar Plates for Fuel Cells. Office of Scientific and Technical Information (OSTI), 2005. http://dx.doi.org/10.2172/15016870.

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Sarin, V., and M. Auger. Corrosion protection of SiC-based ceramics with CVDMullite coatings. Office of Scientific and Technical Information (OSTI), 1997. http://dx.doi.org/10.2172/663380.

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Sieradzki, Karl, Ashlee Aiello, and Ian McCue. Dealloying, Microstructure and the Corrosion/Protection of Cast Magnesium Alloys. Office of Scientific and Technical Information (OSTI), 2017. http://dx.doi.org/10.2172/1413450.

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Jun, Jiheon, Kinga A. Unocic, Margarita V. Petrova, et al. Methodologies for Evaluation of Corrosion Protection for Ductile Iron Pipe. Office of Scientific and Technical Information (OSTI), 2019. http://dx.doi.org/10.2172/1528741.

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Sarin, V., R. Mulpuri, and M. Auger. Corrosion protection of SiC-based ceramics with CVD mullite coatings. Office of Scientific and Technical Information (OSTI), 1996. http://dx.doi.org/10.2172/256785.

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Thompson and Lawson. L51959 Cathodic Protection Requirements for Mitigation Corrosion on Buried Pipelines. Pipeline Research Council International, Inc. (PRCI), 2002. http://dx.doi.org/10.55274/r0011277.

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Abstract:
As pipelines age, the need for predictive capability and comprehensive models for cathodic protection and corrosion mitigation is becoming significantly more critical. It is imperative that such models be developed to insure future pipeline integrity and risk management that is both economically feasible and utilizes best-practice engineering. Present cathodic protection (CP) models are based on a simplified mechanism of cathodic protection that does not explain certain basic field observations for operating underground pipelines. In addition, the lack of a comprehensive mechanism for cathodic
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